Classical Physics

1205 Submissions

A System to Convert Gravitational Energy Directly Into Electrical Energy

We show that it is possible to produce strong gravitational accelerations on the free electrons of a conductor in order to obtain electrical current. This allows the conversion of gravitational energy directly into electrical energy. Here, we propose a system that can produce several tens of kilowatts of electrical energy converted from the gravitational energy.
Category:Classical Physics

The structure of helical electromagnetic waves, with a longitudinal component, provides a mechanism that can account for Newtonian gravity instantaneous influence-at-a-distance. Basic electromagnetic principles applied to helical electromagnetic field structures identify a contiguous alignment from the point of origination to the point where the electromagnetic field has propagated. Once the electromagnetic field has propagated at the speed of light to some point, the influence of the field-to-field coupling may not be limited to the speed of light.
Category:Classical Physics

RLC Circuit Derived from Particle and Field Electromagnetic Equations

The RLC circuit equation is derived step-by-step from basic equations of classical electrodynamics. The system is shown to be oscillating even if elements of the linear current would not interact with each other. Their mutual electromagnetic interaction due to acceleration of charges results in the phenomenon that looks like the increase of the effective mass of the charged particles. The increase of the mass makes the oscillations more persistent with respect to the damping caused by the friction.
Category:Classical Physics

Alpha, Fine Structure Constant and Square Root of Planck Momentum

The natural constants $G$, $h$, $e$ and $m_e$ are commonly used but are themselves difficult to measure experimentally with a high precision. Defining the Planck Ampere in terms of the square root of Planck momentum, referred to here as Quintessence momentum, and by assigning a formula for the electron as a magnetic monopole in terms of $e$ and $c$, a formula for the Rydberg constant can be derived. $G$, $h$, $e$ and $m_e$ can then each be written in terms of more precise constants; the speed of light $c$ (fixed value), the Rydberg constant (12 digit precision) and alpha, the fine structure constant (10 digit precision).
Category:Classical Physics

Measurements of Variations in the Direction of Light Beam

Periodical (-20"..0") and “random (-46"..+15") deflections of the light beam relative to the Earth surface were measured on the distance of 1.52 m during 109 days. The systematic non-refractional deflection of light beam down to the center of the Earth with average value of 11".6 was discovered. The atmospheric refraction coefficient k was considered to be stable and equal to 0.14±0.05. The absolute optical gravimeter was suggested for the forecast of major earthquakes. It was determined that the Moon phases have impact on long-period deflections with two days lag.
Category:Classical Physics

Gravitational Shockwave Weapons

Detonation velocities, greater than that generated by high explosives (~104m/s), can be achieved by using the gravitational technology recently discovered. This possibility leads to the conception of powerful shockwave weapons. Here, we show the design of a portable gravitational shockwave weapon, which can produce detonation velocities greater than 105m/s, and detonation pressures greater than 1010N/m2 .
Category:Classical Physics